A Second Breadth: Hospital-Acquired Pneumonia in Pennsylvania, Nonventilated versus Vent... Page 1 of 12 Pa Patient Saf Advis 2018 Sep;15(3). A Second Breadth: Hospital-Acquired Pneumonia in Pennsylvania, Nonventilated versus Ventilated Patients Authors James Davis, MSN, RN, CIC, CCRN, HEM, FAPIC Senior Infection Prevention Analyst Edward Finley, BS Data Analyst Pennsylvania Patient Safety Authority Corresponding Author James Davis Abstract Research published in 2012 by Pennsylvania Patient Safety Authority analysts determined that nonventilator hospital- acquired pneumonia (NV-HAP) affected more people than ventilator-associated pneumonia (VAP) and was as lethal as, and more costly than, VAP. This article updates the Authority's original data set, using the same methods and outcome measures. Analysts queried the Centers for Disease Control and Prevention's National Healthcare Safety Network (NHSN) for complete nosocomial pneumonia data sets from January 1, 2013, through December 31, 2016, inclusive of the total inpatient population for Pennsylvania acute-care facilities. Data sets from the Authority's original data (from January 1, 2009, through December 31, 2012) are included for comparison. The analysis found not only that NV-HAP continues to be as lethal as VAP but that it demonstrates higher incidence and is more costly as a whole. Introduction Research published in 2012 by the Pennsylvania Patient Safety Authority determined that nonventilator hospital- acquired pneumonia (NV-HAP) affected more people than ventilator-associated pneumonia (VAP) and was as lethal as and wholly more costly than VAP. Furthermore, the incidence of NV-HAP was on the rise in patients in conventional wards and was likely to be underreported.1 Since the original Authority work identifying and defining the impact of NV-HAP on Pennsylvania residents and healthcare facilities was published, U.S. researchers interested in furthering the body of knowledge for NV-HAP have focused on the condition. Subsequent publications have validated the Authority's original findings and identified new areas of impact. http://patientsafety.pa.gov/ADVISORIES/Pages/201809_NVHAP.aspx 8/28/2018 A Second Breadth: Hospital-Acquired Pneumonia in Pennsylvania, Nonventilated versus Vent... Page 2 of 12 Examples of NV-HAP research findings include the following: • Hospital-acquired pneumonia (HAP) accounts for about 21.8% of the burden of all hospital-associated infections meeting criteria of the Centers for Disease Control and Prevention's National Healthcare Safety Network (NHSN). Of these HAP cases, 60.9% can be attributed to NV-HAP, and 39.1% can be attributed to VAP.2 • Mortality attributed to NV-HAP ranges from 13.1% to 30%.1-6 • Additional length of stay associated with NV-HAP ranges from 4.0 to 15.9 days.6 • Estimated NV-HAP acute-care treatment costs range from $28,008 to $40,000 per case.1,2,6,7 This article updates the Authority's original data set, using the same methods and outcome measures. The authors include prevention strategies proposed by other investigators that complement the Authority's original targeted interventions. Methods Pennsylvania state law (Act 52 of 2007) requires that all acute-care healthcare-associated infections be reported through NHSN. Analysts queried NHSN for complete nosocomial pneumonia data sets from January 1, 2013, through December 31, 2016, inclusive of the total inpatient population for Pennsylvania acute-care facilities. Data sets from January 1, 2009, through December 31, 2012, are included for comparison. The original data set was expanded to include 20121 to provide equal time-series sets and to address changes to NHSN's VAP definition that occurred in January 2013.8 Analysts also extracted data for patients with nosocomial pneumonia who died during that period. The NHSN field "Died" was used to aggregate the number of patients with pneumonia who died, regardless of responses found in the "Contributed to death" field. Of those cases of NV-HAP and VAP, the number of patients who died was also extracted. Time-series data was aggregated into yearly subtotals. Besides comparing NV-HAP versus VAP incidence and mortality, estimated costs of NV-HAP versus VAP cases are compared. The baseline estimated average cost per NV-HAP case (in 2010 dollars) is $28,008.9 The estimated average cost per VAP case is $37,442.9 Authority analysts accounted for inflation, adjusting yearly values to accurately present financial impact.10 Another outcome, distribution of NV-HAP cases by NHSN unit type, is based on aggregate data expressed in rate per 1,000 patient-days for January 1, 2013, through December 31, 2016. Results Table 1 shows the number of NV-HAP and VAP cases for 2009 through 2016 from NHSN. Although NV-HAP is as lethal as VAP, NV-HAP demonstrates higher incidence. The table also includes the percentages of patients with NV-HAP and VAP who died. The difference in mortality percentages for patients with NV-HAP and VAP are not statistically significant; see Figure 1. http://patientsafety.pa.gov/ADVISORIES/Pages/201809_NVHAP.aspx 8/28/2018 A Second Breadth: Hospital-Acquired Pneumonia in Pennsylvania, Nonventilated versus Vent... Page 3 of 12 Table 1. Pennsylvania Nosocomial Pneumonia Incidence and Number of Patients with NV-HAP or VAP Who Died Year Number Number of Percentage of Patients Number Number of Percentage of Patients of NV- NV-HAP with NV-HAP Who Died of VAP VAP with VAP Who Died HAP Patients Who (Confidence Interval) Patients Patients (Confidence Limit) Patients Died Who Died 2009 1,977 364 18.41 (16.52–20.3) 922 163 17.68 (14.96–20.39) 2010 1,848 366 19.81 (17.78–21.83) 737 144 19.54 (16.35–22.73) 2011 1,780 318 17.87 (15.9–19.83) 643 127 19.75 (16.32–23.19) 2012 1,620 307 18.95 (16.83–21.07) 571 112 19.61 (15.98–23.25) 2013 1,528 285 18.65 (16.49–20.82) 767 160 20.86 (17.63–24.09) 2014 1,419 256 18.04 (15.83–20.25) 901 199 22.09 (19.02–25.16) 2015 1,427 277 19.41 (17.13–21.7) 912 218 23.90 (20.73–27.08) 2016 1,380 280 20.29 (17.91–22.67) 980 221 22.55 (19.58–25.52) Note: Data as reported to the National Healthcare Safety Network (NHSN). The NHSN field "Died" was used to aggregate the number of patients with NV-HAP or VAP who died regardless of responses found in the "Contributed to death" field. NV-HAP, Nonventilator hospital-acquired pneumonia; VAP, ventilator-associated pneumonia. Table 2 compares the estimated total costs for NV-HAP and VAP cases. NV-HAP wholly is more costly than VAP. Table 2. Estimated Total Yearly Cost of NV-HAP and VAP Cases in Pennsylvania Year NV-HAP Cases Total Cost for NV-HAP Cases* VAP Cases Total Cost for VAP Cases* 2009 1,977 $53,955,118 922 $33,638,285 http://patientsafety.pa.gov/ADVISORIES/Pages/201809_NVHAP.aspx 8/28/2018 A Second Breadth: Hospital-Acquired Pneumonia in Pennsylvania, Nonventilated versus Vent... Page 4 of 12 2010 1,848 $51,758,784 737 $27,594,754 2011 1,780 $50,667,789 643 $24,468,079 2012 1,620 $47,462,290 571 $22,363,860 2013 1,528 $45,480,874 767 $30,519,528 2014 1,419 $42,903,380 901 $36,417,564 2015 1,427 $43,106,716 912 $36,829,241 2016 1,380 $42,259,340 980 $40,118,681 Note: Cases identified in the National Healthcare Safety Network (NHSN) database. The estimated average cost per NV-HAP case is $28,008. The estimated average cost per VAP case is $37,442. NV-HAP, nonventilator hospital-acquired pneumonia; VAP, ventilator-associated pneumonia. * Average costs are derived from Kalsekar I, Amsden J, Kothari S, et al. Economic and utilization burden of hospital-acquired pneumonia (HAP): a systematic review and meta-analysis. Chest. 2010 Oct;138 (4 Suppl):739A, and adjusted for inflation before and after 2010 based on the U.S. Department of Labor. Bureau of Labor Statistics. Consumer Price Index for All Urban Consumers (CPI-U) Inflation Calculator. Table 3 shows the distribution of NV-HAP cases by NHSN unit type for years 2013 through 2016. This data is intended to identify and prioritize high-risk patient populations, to facilitate effective deployment of infection- prevention efforts and resources. Table 3. Distribution of NV-HAP Cases, Pooled Mean per 1,000 Patient-Days (Based on Aggregate Data for Pennsylvania, 2013 through 2016) Unit* Facilities NV-HAP Cases Patient-Days Pooled Mean†,‡ Acute/Critical Care Trauma 12 625 892,396 0.700 Surgery 11 477 908,216 0.525 Oncology medical/surgical 2 40 76,697 0.522 Neurosurgical 9 304 720,303 0.422 Medical 24 775 2,028,708 0.382 Cardiothoracic 30 562 1,550,793 0.362 Long-term acute care 3 50 189,497 0.264 Medical/surgical 117 1,883 7,212,260 0.261 Cardiac 19 222 963,748 0.230 Prenatal 1 2 11,566 0.173 Neurologic 4 18 106,348 0.169 http://patientsafety.pa.gov/ADVISORIES/Pages/201809_NVHAP.aspx 8/28/2018 A Second Breadth: Hospital-Acquired Pneumonia in Pennsylvania, Nonventilated versus Vent... Page 5 of 12 Burn 4 27 194,824 0.139 Respiratory 2 6 59,180 0.101 Medical/surgical pediatric 5 36 693,549 0.052 Nursery 19 75 1,800,203 0.042 Step-down nursery 9 35 1,077,720 0.032 Cardiothoracic pediatric 3 9 331,409 0.027 Medical pediatric 0 0 25,322 0.000 Surgery pediatric 0 0 10,484 0.000 Ward Stroke 1 10 85,764 0.117 Pulmonary 6 61 698,634 0.087 Neurosurgical 3 24 452,944 0.053 Medical 53 612 11,976,937 0.051 Surgical 38 331 6,433,864 0.051 Genitourinary 1 5 103,484 0.048 Medical/surgical 122 1,285 29,471,925 0.044 Telemetry 24 118 2,824,988 0.042 Rehabilitation 41 129 3,982,174 0.032 Orthopedic 24 84 2,909,777 0.029 Gynecology 2 4 140,379 0.028 Neurologic 7 17 682,517 0.025 Gerontology 1 1 77,734 0.013 Behavioral 40 116 10,670,565 0.011 Surgical pediatric 1 1 115,905 0.009 Trauma orthopedic 1 3 334,186 0.009 Antenatal 1 1 117,704 0.008 Labor & delivery 4 4 546,418 0.007 Medical pediatric 2 5 838,051 0.006 Labor & delivery/postpartum 5 5 1,077,758 0.005 Rehabilitation pediatric 1 1 204,761 0.005 Behavioral health pediatric 1 1 261,356 0.004 Postpartum 10 11 2,740,931 0.004 http://patientsafety.pa.gov/ADVISORIES/Pages/201809_NVHAP.aspx 8/28/2018 A Second Breadth: Hospital-Acquired Pneumonia in Pennsylvania, Nonventilated versus Vent... Page 6 of 12 Medical/surgical pediatric 4 5 1,530,652 0.003 Behavioral health adolescent 1 1 681,088 0.001 Nursery 1 2 1,908,707 0.001 Ear/nose/throat 0 0 736 0.000 Orthopedic pediatric 0 0 113,178 0.000 Vascular surgery 0 0 31,926 0.000 Jail 0 0 155,176 0.000 Ward—Oncology Leukemia/lymphoma 2 14 110,550 0.127 Hematology/oncology 17 343 2,865,683 0.120 Hematopoietic stem cell transplant 2 37 317,854 0.116 Hematology/oncology pediatrics 0 0 551,696 0.000 Specialty Care Area Solid organ transplant pediatric 1 4 128,615 0.031 Long-term acute care pediatric 0 0 22,860 0.000 Step-down Unit Adult 60 555 8,272,644 0.067 Pediatric 1 1 415,707 0.002 Nursery 0 0 71,542 0.000 Long-term acute care 22 184 3,867,389 0.048 Note: Data as reported to the National Healthcare Safety Network (NHSN). NV-HAP, nonventilator hospital-acquired pneumonia. * Units are based on NHSN classifications. † Pooled mean = total cases ÷ total patient-days x 1,000. ‡ Per 1,000 patient-days. Discussion Both NV-HAP and HAP continue to be problematic for acute-care patients in Pennsylvania. Many healthcare providers are unaware of the importance of good dental care in preventing both NV-HAP and HAP. Li and co-authors noted that "the teeth are the only nonshedding surfaces in the body, and bacterial levels can reach more than 1011 microorganisms per mg of dental plaque [biofilm]."11 The presence of subgingival biofilm serves as a continual and enormous bacterial load.11 Poor oral hygiene increases plaque load, increasing enzyme levels in saliva.11 As a http://patientsafety.pa.gov/ADVISORIES/Pages/201809_NVHAP.aspx 8/28/2018 A Second Breadth: Hospital-Acquired Pneumonia in Pennsylvania, Nonventilated versus Vent... Page 7 of 12 consequence of the plaque load, increased levels of oral proteolytic enzymes change the lining of the mouth, increasing attachment and colonization by exogenous and/or endogenous pathogenic bacteria.12 The oral cavity is a source as well as a reservoir for pathogenic bacteria in both planktonic and biofilm states. Dental-biofilm removal is mainly accomplished by using dentifrice-containing compounds, such as detergents, abrasives, and antimicrobials, which require mechanical tooth brushing to be effective.13 Given the characteristics of dental biofilm, part of a comprehensive NV-HAP prevention program includes tooth and tongue brushing with toothpaste. Other preventive measures include protecting the patient from macro and micro aspiration and strengthening host defenses to infection.1,6,7,14 Figure 2 provides selected interventions to prevent NV-HAP. Figure 3 provides the Hospital-Acquired Pneumonia Prevention Initiative (HAPPI) oral care protocol designed by researchers at Sutter Medical Center and California State University, Sacramento, and approved by the American Dental Association Board of Trustees in 2017. The HAPPI research developed a targeted oral-care protocol that specifies patient type, equipment, procedure, and frequency for oral care. http://patientsafety.pa.gov/ADVISORIES/Pages/201809_NVHAP.aspx 8/28/2018 A Second Breadth: Hospital-Acquired Pneumonia in Pennsylvania, Nonventilated versus Vent... Page 8 of 12 http://patientsafety.pa.gov/ADVISORIES/Pages/201809_NVHAP.aspx 8/28/2018 A Second Breadth: Hospital-Acquired Pneumonia in Pennsylvania, Nonventilated versus Vent... Page 9 of 12 For preventive interventions to be successful, they need to be performed at specified frequencies. In a large, multicenter, nationwide study, in regard to hospital care performed in the 24 hours before NV-HAP diagnosis, Baker and Quinn found evidence of limited compliance, as follows:14 • Oral care ≥2 times was not documented for 58.6% of patients. http://patientsafety.pa.gov/ADVISORIES/Pages/201809_NVHAP.aspx 8/28/2018 A Second Breadth: Hospital-Acquired Pneumonia in Pennsylvania, Nonventilated versus Ve... Page 10 of 12 • Most patients (64.5%) had documented head-of-bed elevation to 30 to 45 degrees, whereas 35.5% did not. • If permitted, 28.7% of patients were out of bed twice in a 24-hour period, and 55.4% were out of bed fewer than two times (15.9% were not allowed mobility intervention). • Incentive spirometry was not documented for 81.8%, nor were cough and deep breathing exercises (67.4%), in the 24-hour period before pneumonia diagnosis. The poor performance of basic NV-HAP prevention methods is unfortunate and likely signals the need for improved workflows, systems, tools, and human resources to deliver the care that is needed to prevent the condition. The job of prevention should fall upon all care providers, not just nurses and patient care assistants. Perhaps enlisting respiratory therapists, speech and swallowing therapists, and dental professionals could help ensure prevention tasks are performed at appropriate intervals. The dental professional's participation is of paramount importance. Adachi and co-authors correlated weekly dental cleaning by a hygienist with fewer cases of fever and fatal pneumonia in the nursing home setting.15 Similarly, Abe and co-authors noted a reduction in influenza infection in older patients because of weekly professional dental cleaning.16 Perhaps, for HAP prevention, the dental professional should play an active role in the hospital and other healthcare settings. Limitations and Data Nuances NHSN's VAP criteria-definition changes occurred in January 2013,8 which, unfortunately, renders impossible direct comparisons between VAP and NV-HAP for the time periods before and after the change. Analysts did not calculate for analysis the pooled mean for NHSN events for the time periods before or after the criteria change, because the totals would be incomparable. Analysis by patient-days may underestimate the true rate of NV-HAP because this metric potentially lowers rates because of extensions of length of stay related to NV-HAP. Authority analysts did not have access to unit-level- specific admissions by location type for this analysis—hence, the use of patient-days by location type. Comparison of Table 1 from this article with Table 1 from the original Authority article1 reveals few differences, likely due to institutional edits over time. Regardless, the outcomes are the same for this updated data compared with the original data. Conclusion Both NV-HAP and VAP continue to be problematic for acute-care patients in Pennsylvania. NV-HAP affects more patients, contributes to more deaths, and increases costs more than VAP. Focusing care on bacterial reservoirs and the oral portal of entry is the most realistic approach for preventing NV-HAP. Improving oral hygiene is essential in preventing NV-HAP (and VAP). Staff compliance with interventions, as noted herein, and helping all patients to get HAPPI care is likely to prevent extra lengths of stay, save money, and prevent premature deaths. Notes http://patientsafety.pa.gov/ADVISORIES/Pages/201809_NVHAP.aspx 8/28/2018 A Second Breadth: Hospital-Acquired Pneumonia in Pennsylvania, Nonventilated versus Ve... Page 11 of 12 1. Davis J, Finley E. The breadth of hospital-acquired pneumonia: nonventilated versus ventilated patients in Pennsylvania. Pa Patient Saf Advis. 2012 Sep;9(3):99-105. Also available: http://patientsafety.pa.gov/ADVISORIES/Pages/201209_99.aspx (/ADVISORIES/Pages/201209_99.aspx). 2. Magill SS, Edwards JR, Bamberg W, Beldavs ZG, Dumyati G, Kainer MA, Lynfield R, Maloney M, McAllister- Hollod L, Nadle J, Ray SM, Thompson DL, Wilson LE, Fridkin SK, Emerging Infections Program Healthcare- Associated Infections and Antimicrobial Use Prevalence Survey Team. Multistate point-prevalence survey of health care-associated infections. N Engl J Med. 2014 Mar 27;370(13):1198-208. Also available: http://dx.doi.org/10.1056/NEJMoa1306801 (http://dx.doi.org/10.1056/NEJMoa1306801). PMID: 24670166 3. Micek ST, Chew B, Hampton N, Kollef MH. A case-control study assessing the impact of non-ventilated hospital-acquired pneumonia on patient outcomes. Chest. 2016;150:991-2. 4. Sopena N, Heras E, Casas I, Bechini J, Guasch I, Pedro-Botet ML, Roure S, Sabrià M. Risk factors for hospital-acquired pneumonia outside the intensive care unit: a case-control study. Am J Infect Control. 2014 Jan;42(1):38-42. Also available: http://dx.doi.org/10.1016/j.ajic.2013.06.021 (http://dx.doi.org/10.1016/j.ajic.2013.06.021). PMID: 24199911 5. See I, Chang J, Gualandi N, Buser GL, Rohrbach P, Smeltz DA, Bellush MJ, Coffin SE, Gould JM, Hess D, Hennessey P, Hubbard S, Kiernan A, O'Donnell J, Pegues DA, Miller JR, Magill SS. Clinical correlates of surveillance events detected by National Healthcare Safety Network pneumonia and lower respiratory infection definitions - Pennsylvania, 2011-2012. Infect Control Hosp Epidemiol. 2016 Jul;37(7):818-24. Also available: http://dx.doi.org/10.1017/ice.2016.74 (http://dx.doi.org/10.1017/ice.2016.74). PMID: 27072043 6. Giuliano KK, Baker D, Quinn B. The epidemiology of nonventilator hospital-acquired pneumonia in the United States. Am J Infect Control. 2018 Mar;46(3):322-7. Also available: http://dx.doi.org/10.1016/j.ajic.2017.09.005 (http://dx.doi.org/10.1016/j.ajic.2017.09.005). PMID: 29050905 7. Guidelines for the management of adults with hospital-acquired, ventilator-associated, and healthcare- associated pneumonia. Am J Respir Crit Care Med. 2005 Feb 15;171(4):388-416. PMID: 15699079 8. National Healthcare Safety Network (NHSN) Patient Safety Component Manual. Atlanta (GA): Centers for Disease Control and Prevention (CDC); 2018 Jan. Device Associated Module: Ventilator-Associated Event (VAE). p. 10.2-10.44. Also available: https://www.cdc.gov/nhsn/pdfs/pscmanual/10-vae_final.pdf (https://www.cdc.gov/nhsn/pdfs/pscmanual/10-vae_final.pdf). 9. Kalsekar I, Amsden J, Kothari S, et al. Economic and utilization burden of hospital-acquired pneumonia (HAP): a systematic review and meta-analysis. Chest. 2010 Oct;138(4 Suppl):739A. 10. Consumer Price Index for All Urban Consumers (CPI-U): Inflation calculator. [internet]. Washington (DC): U.S. Department of Labor, Bureau of Labor Statistics; [accessed 2018 Apr 04]. Available: https://www.bls.gov/data/inflation_calculator.htm (https://www.bls.gov/data/inflation_calculator.htm). 11. Li X, Kolltveit KM, Tronstad L, Olsen I. Systemic diseases caused by oral infection. Clin Microbiol Rev. 2000 Oct;13(4):547-58. PMID: 11023956 12. Childs WC, Gibbons RJ. Selective modulation of bacterial attachment to oral epithelial cells by enzyme activities associated with poor oral hygiene. J Periodontal Res. 1990 May;25(3):172-8. PMID: 2141877 13. Sanz M, Serrano J, Iniesta M, Santa Cruz I, Herrera D. Antiplaque and antigingivitis toothpastes. In: van Loveren C, editor(s). Toothpastes. Basel (Switzerland): Karger; 2013. p. 27-44. Monographs in Oral Science; vol. 23. http://patientsafety.pa.gov/ADVISORIES/Pages/201809_NVHAP.aspx 8/28/2018 A Second Breadth: Hospital-Acquired Pneumonia in Pennsylvania, Nonventilated versus Ve... Page 12 of 12 14. Baker D, Quinn B. Hospital Acquired Pneumonia Prevention Initiative-2: Incidence of nonventilator hospital- acquired pneumonia in the United States. Am J Infect Control. 2018 Jan;46(1):2-7. Also available: http://dx.doi.org/10.1016/j.ajic.2017.08.036 (http://dx.doi.org/10.1016/j.ajic.2017.08.036). PMID: 29050903 15. Adachi M, Ishihara K, Abe S, Okuda K, Ishikawa T. Effect of professional oral health care on the elderly living in nursing homes. Oral Surg Oral Med Oral Pathol Oral Radiol Endod. 2002 Aug;94(2):191-5. PMID: 12221387 16. Abe S, Ishihara K, Adachi M, Sasaki H, Tanaka K, Okuda K. Professional oral care reduces influenza infection in elderly. Arch Gerontol Geriatr. 2006 Sep-Oct;43(2):157-64. Also available: http://dx.doi.org/10.1016/j.archger.2005.10.004 (http://dx.doi.org/10.1016/j.archger.2005.10.004). PMID: 16325937 The Pennsylvania Patient Safety Advisory may be reprinted and distributed without restriction, provided it is printed or distributed in its entirety and without alteration. Individual articles may be reprinted in their entirety and without alteration, provided the source is clearly attributed. Current and previous issues are available online at http://patientsafety.pa.gov (http://patientsafety.pa.gov/). http://patientsafety.pa.gov/ADVISORIES/Pages/201809_NVHAP.aspx 8/28/2018